Summary
Climate change is the most significant challenge for humanity today. For this reason, fossil fuels must be replaced utilising renewables, improved energy efficiency and more flexible energy systems. An optimal combination of several renewable sources is needed to satisfy human energy needs. Bioenergy, in combination with hydrogen, can take the role as secure and plannable source for power and heat complementing intermittent renewable sources such as wind and sun.
BIO-FlexGen will increase the efficiency and flexibility of renewable energy-based combined heat and power (CHP), playing a key role in energy system integration, and make a significant contribution to the decarbonisation of the energy system.
In particular, to overcome these challenges, Bio-FlexGen brings to the table a unique combination of gasification and gas turbine technology that allows the plant to utilise hydrogen for fast dispatch and biomass for low operating costs over time. Due to the high efficiency, three times more power can be generated from biomass for the same heat load, and the plant can quickly achieve full load by starting and operating on 100% hydrogen. To meet fluctuations in seasonal demands and prices, a variant of the plant can provide climate-positive hydrogen production during long periods of low electricity prices or heat demand.
To do so, Bio-FlexGen consortium gathers the necessary experience, knowledge and resources through a multi-stakeholder approach that covers the whole value chain of the project. It consists of a multidisciplinary team of 14 entities from 5 different EU countries (Spain, Finland, Sweden, Germany, Hungary), among which, 4 universities, 2 RTD organisations, 1 NGO, and 4 SMEs to ensure market exploitation (2 industrial companies and 1 District heat company).
BIO-FlexGen will increase the efficiency and flexibility of renewable energy-based combined heat and power (CHP), playing a key role in energy system integration, and make a significant contribution to the decarbonisation of the energy system.
In particular, to overcome these challenges, Bio-FlexGen brings to the table a unique combination of gasification and gas turbine technology that allows the plant to utilise hydrogen for fast dispatch and biomass for low operating costs over time. Due to the high efficiency, three times more power can be generated from biomass for the same heat load, and the plant can quickly achieve full load by starting and operating on 100% hydrogen. To meet fluctuations in seasonal demands and prices, a variant of the plant can provide climate-positive hydrogen production during long periods of low electricity prices or heat demand.
To do so, Bio-FlexGen consortium gathers the necessary experience, knowledge and resources through a multi-stakeholder approach that covers the whole value chain of the project. It consists of a multidisciplinary team of 14 entities from 5 different EU countries (Spain, Finland, Sweden, Germany, Hungary), among which, 4 universities, 2 RTD organisations, 1 NGO, and 4 SMEs to ensure market exploitation (2 industrial companies and 1 District heat company).
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101037085 |
| Start date: | 01-09-2021 |
| End date: | 31-08-2024 |
| Total budget - Public funding: | 5 984 697,00 Euro - 5 984 697,00 Euro |
Cordis data
Original description
Climate change is the most significant challenge for humanity today. For this reason, fossil fuels must be replaced utilising renewables, improved energy efficiency and more flexible energy systems. An optimal combination of several renewable sources is needed to satisfy human energy needs. Bioenergy, in combination with hydrogen, can take the role as secure and plannable source for power and heat complementing intermittent renewable sources such as wind and sun.BIO-FlexGen will increase the efficiency and flexibility of renewable energy-based combined heat and power (CHP), playing a key role in energy system integration, and make a significant contribution to the decarbonisation of the energy system.
In particular, to overcome these challenges, Bio-FlexGen brings to the table a unique combination of gasification and gas turbine technology that allows the plant to utilise hydrogen for fast dispatch and biomass for low operating costs over time. Due to the high efficiency, three times more power can be generated from biomass for the same heat load, and the plant can quickly achieve full load by starting and operating on 100% hydrogen. To meet fluctuations in seasonal demands and prices, a variant of the plant can provide climate-positive hydrogen production during long periods of low electricity prices or heat demand.
To do so, Bio-FlexGen consortium gathers the necessary experience, knowledge and resources through a multi-stakeholder approach that covers the whole value chain of the project. It consists of a multidisciplinary team of 14 entities from 5 different EU countries (Spain, Finland, Sweden, Germany, Hungary), among which, 4 universities, 2 RTD organisations, 1 NGO, and 4 SMEs to ensure market exploitation (2 industrial companies and 1 District heat company).
Status
SIGNEDCall topic
LC-GD-2-1-2020Update Date
26-10-2022
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Organisations
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| SP SVERIGES TEKNISKA FORSKNINGSINSTITUT AB (Coördinator)
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| ABO AKADEMI
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| BIT GMBH BERLINER INSTITUT FUR TECHNOLOGIETRANSFER
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| CEMEX ESPANA OPERACIONES SL
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| EUROPEAN SCIENCE COMMUNICATION INSTITUTE (ESCI) GGMBH
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| GEONARDO ENVIRONMENTAL TECHNOLOGIESLTD
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| Ikerlan
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| KUNGLIGA TEKNISKA HOEGSKOLAN
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| PHOENIX BIOPOWER AB
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| RISE ENERGY TECHNOLOGY CENTER AB
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| RISE INNVENTIA AB
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| SOCIEDAD ANONIMA SULQUISA S.A.
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| TECHNISCHE UNIVERSITAT BERLIN
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| TEKNISKA VERKEN I LINKOPING AB
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| UNIVERSIDAD PONTIFICIA COMILLAS